About cookies on this site Our websites require some cookies to function properly (required). In addition, other cookies may be used with your consent to analyze site usage, improve the user experience and for advertising. For more information, please review your options. By visiting our website, you agree to our processing of information as described in IBM’sprivacy statement. To provide a smooth navigation, your cookie preferences will be shared across the IBM web domains listed here.
Publication
Ultramicroscopy
Paper
"Tunnel" near-field optical microscopy: TNOM-2
Abstract
Light emitted from the aperture of a near-field optical probe in the close vicinity of a dielectric object propagates in classically "forbidden" as well as "allowed" directions; the two zones are separated by the critical angle for total internal reflection. The new "tunnel" near-field optical microscopy (TNOM) technique makes use of forbidden and allowed radiation, in contrast to standard scanning near-field optical microscopy (SNOM or NSOM), which records only the allowed light. Scan images obtained with allowed and forbidden light are complementary to some extent; the latter, however, provide high contrast and resolution even in situations in which standard SNOM/NSOM shows little or no contrast. The influence of topography on image formation is analyzed and discussed. © 1995.